Photovoltaic, Internet-of-Things-Enabled Intelligent Agricultural Surveillance System

South Asian Research Journal of Engineering and Technology Pub Date : 2022-09-04 DOI:10.36346/sarjet.2022.v04i05.001

Y. H. Reddy, Adnan Ali, A. Sha, P. Madhulaya, P. Madhulatha, G. Varahi, P. Lakshmisravya, R. Varaprasad

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引用次数: 3

Abstract

The implementation of wireless communication technologies for monitoring and control systems resulted in the first instance of "smart" farming. Precision agriculture (PA) is characterized by the employment of cutting-edge technology and equipment calibrated to the inch to precisely monitor and treat crops. Smart PA is able to assist farmers in increasing crop yields and simultaneously increasing efficiency and reducing stress by utilising wireless sensor networks (WSNs) and the Internet of Things (IoT). In this paper, an Internet of Things–enabled agricultural monitoring system is discussed. Data on the environment will be gathered in the field by solar-powered prototype nodes, and then transmitted to a central station for processing. Utilizing two nodes, it was determined whether or not it is advantageous to add energy harvesting into an electrical device. An experimental testbed demonstrates how the system might work in the future by capturing energy. Using a gadget that can harvest energy can lengthen the amount of time a device is able to run by supplying it with electricity, charging the battery, and increasing the battery's capacity.

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光伏、物联网智能农业监控系统

无线通信技术用于监测和控制系统的实施导致了“智能”农业的第一个实例。精准农业(PA)的特点是采用尖端技术和校准到英寸的设备来精确监测和处理作物。智能PA能够通过利用无线传感器网络(wsn)和物联网(IoT)帮助农民提高作物产量，同时提高效率并减轻压力。本文讨论了一种基于物联网的农业监测系统。有关环境的数据将由太阳能驱动的原型节点在现场收集，然后传输到一个中心站进行处理。利用两个节点，确定在电气设备中添加能量收集是否有利。一个实验测试平台演示了该系统如何通过捕获能量在未来工作。使用一个可以收集能量的小工具可以通过给设备供电、给电池充电和增加电池容量来延长设备的运行时间。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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South Asian Research Journal of Engineering and Technology

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